Exercise apparatus with weight stacks and elastic bands

ABSTRACT

An exercise machine with a bench press and a pair of weight stacks, which are operationally connected to a lifting bar of a barbell. Pushing motion on the lifting bar transmits the force to a series of wheels connected by flexible bands and to a pair of weight stacks positioned behind the bench press. The weight members of the weight stack are connected by pins, such that upward movement of the uppermost weight members causes pulling force to be applied to successive lower weight members one at a time, thereby allowing incremental increase in the resistance force to the lifting motion of the user.

BACKGROUND OF THE INVENTION

The present invention relates to a weight training exercise machine, and more particularly to an exercise machine having a pair of weight stack assemblies with adjustable resistance and elastic bands of varying resistance.

Weight plates and other weight elements are extensively used in the exercise industry; these elements come in various shapes and sizes. However, large weight plates cannot be adjusted for increments of the weight resistance and often jump from 5 to 10 pounds without the possibility of using an increment of weight.

Some of the exercise machines are provided with barbells and bench press assemblies whereby the user positions himself/herself on the bench and lifts the barbells positioned above the bench press. Some of the conventional exercise equipment uses chains and rubber bands, which are stored near the exercise equipment and are assembled for a particular user. This task is often time consuming and arduous. Many of such exercise machines use chains and elastic bands to facilitate exercising muscles in different ways throughout the full range of motion. The chain and cable oftentimes occupy a large space and interfere with the movements of the exercise machine user.

The present invention contemplates elimination of drawbacks associated with the prior art and provision of an exercise machine that allows the user to lift, as well as pull incremental selections of weights while positioned on the bench press.

SUMMARY OF THE INVENTION

It is, therefore, an object of the present invention to provide an exercise machine, which allows lifting and pulling exercises to be combined in one motion of the user.

It is another object of the present invention to provide a compact exercise machine that allows the user to incrementally lift and pull greater weights in one motion, depending on the strength of the user.

It is a further object of the present invention to provide an exercise machine that allows to modify the resistance elements to be pushed/pulled by the user without requiring the user to leave his position on the weight lifting equipment.

These and other objects of the present invention are achieved through a provision of an exercise machine, which allows the user to push barbells upwardly and cause operationally connected weight elements of two weight assemblies to be pulled in sequence, allowing incremental weight resistance to the pushing motion and/or to use elastic bands.

BRIEF DESCRIPTION OF THE DRAWINGS

Reference will now be made to the drawings, wherein like parts are designated by like numerals, and wherein

FIG. 1 is a front view of the exercise machine of the present invention, with the barbell assembly lowered and without weight plates.

FIG. 2 is a rear view of the exercise machine of the present invention showing the weight members lifted.

FIG. 3 is a front detail view of the exercise machine of the present invention. [0013] FIG. 4 is a schematic side view of the exercise machine of the present invention with the weight stack extended.

FIG. 5 is a cross-sectional view of the weight stack of the apparatus of the present invention in a non-extended position.

FIG. 6 is a cross-sectional view of the weight stack of the exercise machine of the present invention with the weight members in an extended position.

FIG. 7 is a rear view of the exercise machine of the present invention with elastic band in a retracted position.

FIG. 8 is a detail view of one of the weight stacks of the apparatus of the present invention with the elastic band extended and the weight stack not moving.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

Turning now to the drawings in more detail, numeral 10 designates the weight exercise machine of the present invention. The apparatus 10 comprises a frame structure 12, a pair of weight assemblies 14 and 16, and a bench 18.

The support frame 12 comprises a first upright support 20 fixedly secured with a first horizontal bar 22, which extends at a right angle to the vertical axis of the upright member 20. The first upright member rests on a front shim plate 21 (FIG. 4), which resists sliding. A second horizontal bar 24 is secured to a free end of the first horizontal bar 22 and extends at the right angle thereto. A third horizontal bar 26 is secured above the second bar 24. Opposite ends of the support bars 24 and 26 are rigidly attached to spaced-apart second upright member 28 and third upright member 30. A bench support bar 32 is attached above the first horizontal bar 22 (see FIG. 4) extending between the first upright support 20 and the third horizontal bar 26. A bench 40 is positioned on top of the bench support bar 32 extending from the first upright member 20 past the edge of the third horizontal bar 26, as can be seen in the drawings.

The second upright member 28 has a hook-shaped rest 42 for a lifting bar 50 of a barbell assembly. A similar hook-shaped rest 44 is secured on top of the third upright member 30 for receiving an opposite end of the lifting bar 50.

The weight assemblies 14 and 16 are mirror images of each other, and it will understood that description of structure and operation of the weight assembly 14 applies equally to the second weight assembly 16. The weight assembly 14 comprises a weight stack 61 (FIG. 2) having a plurality of weight members 60 (FIGS. 4, 6 and 7) which are secured together by a plurality of telescopic pins 54 (FIG. 6). The pins 54 extend between the weight members 60 and fit within openings 62 made in the weight members 60.

A tubular guide 64 extends through the center of the weight stack 61. The guide 64 is made of two telescopically engaged members, with the lower telescopic member 66 fitting within an upper telescopic member 68. One or more openings 70 are formed in the upper tubular member 68 for receiving a locking pin 72 (FIG. 4) therethrough. When the lift pin is inserted in the opening(s) 70, the weight members 60 can be moved in an upward direction. Conversely, when the locking pin 70 is removed or disengaged, the weight members 60 remain stacked together, as shown in FIG. 5 and 7.

A traveling guide 120 is secured atop the uppermost weight member 60. When an upwardly directed force is applied to the traveling guide 120, the weight members 60 move upwardly in succession, depending on the range of motion of the user. The pins 54 slide within their respective pockets, or openings, causing the weight members to move in sequence one by one. It is envisioned that the pins 54 can be dimensioned such that a distance of less than an inch is created between the bottom of the upper weight member and the top of an adjacent weight member 60. It is also envisioned that about 8 inches of vertical travel can be achieved by lifting the weight stack with the weight members 60.

The weight stack assembly 14 further comprises a base plate 74 on which the bottom of the stack of weight members 60 rest. The weight stack assembly 14 further comprises a pair of upright brackets 76 and 78, which support the weight members 60 on opposite sides. Extending between the upper ends of the brackets 76 and 78 is a rod 80, which carries a pulley 82 thereon. A flexible band 84 is wrapped around the pulley 82 and travels with the rotation of the pulley 82. A second weight assembly pulley 86 is located below the first pulley 82. A free end of the band 84 is wrapped and secured to the pulley 86. The pulley 86 is mounted on a rod 88, which extends through the second bracket member 78 and serves as an axis for a rotating wheel 90.

A lifting band 92 is wrapped around the wheel 90 and travels with the pushing of the lifting bar 50. The band 92 is secured between the bar 50 and the wheel 90. One of the ends of the lifting band 92 is secured to a hook-shaped attachment member 96, which hooks over the lifting bar 50. The second end of the band 92 is lowered to engage a guide 94, which is positioned between parallel brackets 98 and 104 of the weight assembly 14. The brackets rest on the ground forward of the weight stack 61 and form a unitary structure with the bracket 78. The brackets 98 and 104 extend at an approximately right angle to the vertical axis of the bracket 78. The guide 94 is positioned forward of the wheel 90.

The bracket 98 is provided with a plurality of through openings 100 which are formed and configured to receive a turning sheave pin 102. Similar openings 108 are formed though the bracket 104, allowing extension of the pin 102 through the aligned openings 100 and 108. The traveling guide 120 is provided with a slidably vertically moveable hook 122 (FIG. 4), which travels up and down when the locking pin 72 is not engaged within the opening 70. A second hook 124 is fixedly attached to a bracket 126, which is supported by a weight assembly pedestal 106. An elastic band 130 is stretched between the hooks 122 and 124. The elastic band 130 creates a different type of resistance force to the movement of the lifting bar 50.

During use, the user positions himself/herself on the weight bench 18 and grips the lifting bar 50 with both hands. If desired, a pair of weight plates 134 and 136 can be added to increase resistance to the lifting force. The movement of the weight plates 134, 136 can be better seen in FIG. 4, wherein the starting position is shown in phantom lines, and the end position—in solid lines. The flexible strap 92 is hooked to the lifting bar 50 and through the guiding wheel 94, wheel 90, axle 88, pulley 86 and pulley 82, transmits the lifting force to the weight stack members 60. When the locking pin 72 is inserted, the weight members 60 are lifted in succession, starting with the uppermost weight member, in increments as the user pushes the lifting bar 50 farther away from the body. The pushing force on the lifting bar translates into a lifting force on the weight members 60, offering incrementally increasing resistance force. The user can continue pushing the lift the bar 50 until such time as all weight members 60 are extended in a manner shown in FIG. 2. It is envisioned that the lifting bar 50 may be pushed up to 36″ upwardly during normal use.

If the lock pin is not inserted into the weight stack, the user can still exert the pushing force on the weight bar 50 against the resistance of the elastic bands 130, which are positioned on the back of each weight stack 61. The band 130 stretches to a position shown in FIG. 7, causing the traveling hook 120 to move with the upper tubular member 68 while the weight stack 61 does not move.

The user may adjust the mass of the lifted weight by exchanging the weight plates 134 136 carried by opposite ends of the lifting bar 50 to such a level of strength. The user may also use the weight stack 61 or the rubber band 130 as the resisting means for exercising the muscles of the body. The thickness and stretching resistance of the elastic bands 130 can be modified to further increase exercise benefits for the user. The weight members 60 can be modified to further increase/decrease the incremental stepwise resistance provided by this apparatus. The exercise machine of the instant invention provides for a compact unit, which does not require the use of separately stored chains that must be assembled before use. The machine of the instant invention provides for unitized equipment that allows addition of weights at periodic intervals. Many other changes and modifications can be made in the design of the present invention without departing from the spirit thereof. I therefore pray that my rights to the present invention be limited only by the scope of the appended claims. 

1. An exercise machine, comprising: a frame structure supporting an exercising assembly; a pair of upright members secured to the exercising assembly; a barbell having an axially elongated lifting bar supportable by said upright members; a pair of weight assemblies operationally connected to the barbell, each of said weight assemblies comprising a plurality of interconnected weight members; and a flexible band detachably engageable between the lifting bar and the weight assemblies such that application of an upwardly directed force to the lifting bar causes the weight members of the weight assemblies to be incrementally pulled in an upward direction.
 2. An exercise machine, comprising: a frame structure supporting a bench press assembly; a pair of upright members secured to the bench press assembly; a barbell having an axially elongated lifting bar supportable by said upright members; a pair of weight assemblies operationally connected to the barbell, each of said weight assemblies comprising a plurality of interconnected weight members; and a flexible band detachably engageable between the lifting bar and the weight assemblies such that application of an upwardly directed force to the lifting bar causes the weight members of the weight assemblies to be incrementally pulled in an upward direction.
 3. The exercise machine of claim 2, wherein each of said weight assemblies further comprises a central extendable tubular member secured to each of said weight members.
 4. The exercise machine of claim 3, wherein said tubular member comprises a pair of telescopically engaged tubular members, with an upper end of tubular member being connected to said flexible band.
 5. The exercise machine of claim 2, wherein said weight members are secured together by a plurality of connecting rods extending between said weight members, such that application of an upwardly directed force causes movement of the uppermost weight member and incremental movement of the below-positioned weight members.
 6. The exercise machine of claim 2, further comprising a means for transferring upwardly directed force from said flexible band to the weight members.
 7. The exercise machine of claim 6, wherein said means for transferring an upwardly directed force comprises, for each weight assembly, a first wheel having the a free end of the flexible band secured thereto, at least one pulley mounted in a co-axial relationship to said wheel for receiving rotational force from said wheel, and a second flexible band connected to said at least one pulley and to said weight assembly.
 8. The exercise machine of claim 7, further comprising a second pulley mounted between said at least one pulley and the weight assembly and wherein said second flexible band wraps about said second pulley.
 9. The exercise machine of claim 2, wherein each of said weight assemblies further comprises a traveling guide secured to the uppermost weight member, and wherein lifting of the traveling guide lifts the remaining weight members in succession.
 10. The exercise machine of claim 9, wherein each of said weight assemblies further comprises a lower fixed hook member, and an upper movable hook member, and wherein a flexible resilient elastic band is secured to the lower hook member and the upper hook member, and wherein said upper hook member is secured to and moves with the traveling guide.
 11. The exercise machine of claim 10, wherein each of said weight assemblies further comprises a locking pin engageable with the uppermost weight member and movable between a first position engaging the uppermost weight member and preventing movement of the traveling guide and a second non-engaged position allowing movement of the traveling guide and the upper hook member, stretching the elastic band.
 12. An exercise machine, comprising: a frame structure supporting an exercising assembly; a pair of upright members secured to the exercising assembly; a barbell having an axially elongated lifting bar supportable by said upright members; a pair of weight assemblies operationally connected to the barbell, each of said weight assemblies comprising a plurality of interconnected weight members, a central telescopically extendable tubular member secured to each of said weight members, a plurality of securing pins slidably mounted between adjacent weight member and a traveling guide secured to the uppermost of the weight members; and a flexible band detachably engageable between the traveling guide and the lifting bar such that application of an upwardly directed force to the lifting bar causes the weight members of the weight assemblies to be pulled in an upward direction in succession.
 13. The exercise machine of claim 12, further comprising a means for transferring upwardly directed force from said flexible band to the traveling guide.
 14. The exercise machine of claim 13, wherein said means for transferring an upwardly directed force comprises, for each weight assembly, a first wheel having the a free end of the flexible band secured thereto, a first pulley mounted in a co-axial relationship to said wheel for receiving rotational force from said wheel, a second flexible band connected to said first pulley, a second pulley mounted in a spaced relationship to said first pulley and guiding the second flexible band to the traveling guide.
 15. The exercise machine of claim 12, wherein each of said weight assemblies further comprises a lower fixed hook member, and an upper movable hook member, and wherein a flexible resilient elastic band is secured to the lower hook member and the upper hook member, and wherein said upper hook member is secured to and moves with the traveling guide.
 16. The exercise machine of claim 15, wherein each of said weight assemblies further comprises a locking pin engageable with the uppermost weight member and movable between a first position engaging the uppermost weight member and preventing movement of the traveling guide and a second non-engaged position allowing movement of the traveling guide and the upper hook member, stretching the elastic band. 